TL;DR:在 iOS 中生成并存储在钥匙串中、导出为 base64 并发送到 java 后端的 RSA 公钥无法识别。
我正在 iOS 应用程序中实现聊天加密功能,并使用对称 + 非对称密钥来处理它。
无需过多介绍细节,在后端,我使用用户的公钥来加密用于加密和解密消息的对称密钥。
我创建了两个框架,分别用 Swift 和 Java(后端)来处理密钥生成、加密、解密等。我也对它们进行了测试,所以我 100% 一切都按预期工作。
但是,后端似乎无法识别从iOS传递的公钥的格式。两边都使用 RSA,这是我在 Swift 中用来生成密钥的代码:
// private key parameters
static let privateKeyParams: [String : Any] = [
kSecAttrIsPermanent as String: true,
kSecAttrApplicationTag as String: "..." // I have a proper unique tag here
]
// public key parameters
static let publicKeyParams: [String : Any] = [
kSecAttrIsPermanent as String: true,
kSecAttrApplicationTag as String: "..." // I have a proper unique tag here
]
// global parameters for our key generation
static let keyCreationParameters: [String : Any] = [
kSecAttrKeyType as String: kSecAttrKeyTypeRSA,
kSecAttrKeySizeInBits as String: 2048,
kSecPublicKeyAttrs as String: publicKeyParams,
kSecPrivateKeyAttrs as String: privateKeyParams
]
...
var publicKey, privateKey: SecKey?
let status = SecKeyGeneratePair(Constants.keyCreationParameters as CFDictionary, &publicKey, &privateKey)
我使用镜面代码从钥匙串中读取钥匙。
这是我用来将公钥导出为 Base64 字符串的代码:
extension SecKey {
func asBase64() throws -> String {
var dataPtr: CFTypeRef?
let query: [String:Any] = [
kSecClass as String: kSecClassKey,
kSecAttrApplicationTag as String: "...", // Same unique tag here
kSecAttrKeyType as String: kSecAttrKeyTypeRSA,
kSecReturnData as String: kCFBooleanTrue
]
let result = SecItemCopyMatching(query as CFDictionary, &dataPtr)
switch (result, dataPtr) {
case (errSecSuccess, .some(let data)):
// convert to Base64 string
let base64PublicKey = data.base64EncodedString(options: [])
return base64PublicKey
default:
throw CryptoError.keyConversionError
}
}
}
在后端级别,我使用此 Java 代码将 base64 字符串转换为公钥:
public PublicKey publicKeyFrom(String data) throws NoSuchAlgorithmException, InvalidKeySpecException {
byte[] publicBytes = Base64.decodeBase64(data);
X509EncodedKeySpec keySpec = new X509EncodedKeySpec(publicBytes);
KeyFactory keyFactory = KeyFactory.getInstance("RSA");
return keyFactory.generatePublic(keySpec);
}
但这在最后一行失败了,但有一个例外:
java.security.spec.InvalidKeySpecException: java.security.InvalidKeyException: IOException: algid parse error, not a sequence
进行一些手动调试,我注意到公钥的格式不同 - 当我在 iOS 中生成密钥然后导出为 Base 64 时,它看起来像这样:
MIIBCgKCAQEA4M/bRDdH0f6qFIXxOg13RHka+g4Yv8u9PpPp1IR6pSwrM1aq8B6cyKRwnLe/MOkvODvDfJzvGXGQ01zSTxYWAW1B4uc/NCEemCmZqMosSB/VUJdNxxWtt2hJxpz06hAawqV+6HmweAB2dUn9tDEsQLsNHdwYouOKpyRZGimcF9qRFn1RjR0Q54sUh1tQAj/EwmgY2S2bI5TqtZnZw7X7Waji7wWi6Gz88IkuzLAzB9VBNDeV1cfJFiWsZ/MIixSvhpW3dMNCrJShvBouIG8nS+vykBlbFVRGy3gJr8+OcmIq5vuHVhqrWwHNOs+WR87K/qTFO/CB7MiyiIV1b1x5DQIDAQAB
总共 360 个字符,而在 Java 中执行相同操作(仍然使用 RSA)就像:
MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCAAnWO4BXUGP0qM3Op36YXkWNxb4I2pPZuZ7jJtfUO7v+IO1mq43WzNaxLqqLPkTnMrv2ACRDK55vin+leQlL1z0LzVxjtZ9F6pajQo1r7PqBlL5N8bzBFKpagEf0QfyHPw0/0kG9DMnvQ+Im881QyN2zdl33wp5Fi+jRT7cunFQIDAQAB
长度为216个字符。
我无法弄清楚出了什么问题 - 显然,如果 iOS 使用不同的键处理键,并且需要特殊处理才能与其他人交谈,我显然不会感到惊讶。
有什么想法吗?
将 iOS 应用程序连接到 Java 后端时,我们遇到了完全相同的问题。 pedrofb提到的CryptoExportImportManager也帮助了我们,这太棒了。然而,
CryptoExportImportManagerclass RSAKeyEncoding: NSObject {
// ASN.1 identifiers
private let bitStringIdentifier: UInt8 = 0x03
private let sequenceIdentifier: UInt8 = 0x30
// ASN.1 AlgorithmIdentfier for RSA encryption: OID 1 2 840 113549 1 1 1 and NULL
private let algorithmIdentifierForRSAEncryption: [UInt8] = [0x30, 0x0d, 0x06,
0x09, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x01, 0x05, 0x00]
/// Converts the DER encoding of an RSA public key that is either fetched from the
/// keychain (e.g. by using `SecItemCopyMatching(_:_:)`) or retrieved in another way
/// (e.g. by using `SecKeyCopyExternalRepresentation(_:_:)`), to a format typically
/// used by tools and programming languages outside the Apple ecosystem (such as
/// OpenSSL, Java, PHP and Perl). The DER encoding of an RSA public key created by
/// iOS is represented with the ASN.1 RSAPublicKey type as defined by PKCS #1.
/// However, many systems outside the Apple ecosystem expect the DER encoding of a
/// key to be represented with the ASN.1 SubjectPublicKeyInfo type as defined by
/// X.509. The two types are related in a way that if the SubjectPublicKeyInfo’s
/// algorithm field contains the rsaEncryption object identifier as defined by
/// PKCS #1, the subjectPublicKey field shall contain the DER encoding of an
/// RSAPublicKey type.
///
/// - Parameter rsaPublicKeyData: A data object containing the DER encoding of an
/// RSA public key, which is represented with the ASN.1 RSAPublicKey type.
/// - Returns: A data object containing the DER encoding of an RSA public key, which
/// is represented with the ASN.1 SubjectPublicKeyInfo type.
func convertToX509EncodedKey(_ rsaPublicKeyData: Data) -> Data {
var derEncodedKeyBytes = [UInt8](rsaPublicKeyData)
// Insert ASN.1 BIT STRING bytes at the beginning of the array
derEncodedKeyBytes.insert(0x00, at: 0)
derEncodedKeyBytes.insert(contentsOf: lengthField(of: derEncodedKeyBytes), at: 0)
derEncodedKeyBytes.insert(bitStringIdentifier, at: 0)
// Insert ASN.1 AlgorithmIdentifier bytes at the beginning of the array
derEncodedKeyBytes.insert(contentsOf: algorithmIdentifierForRSAEncryption, at: 0)
// Insert ASN.1 SEQUENCE bytes at the beginning of the array
derEncodedKeyBytes.insert(contentsOf: lengthField(of: derEncodedKeyBytes), at: 0)
derEncodedKeyBytes.insert(sequenceIdentifier, at: 0)
return Data(derEncodedKeyBytes)
}
private func lengthField(of valueField: [UInt8]) -> [UInt8] {
var length = valueField.count
if length < 128 {
return [ UInt8(length) ]
}
// Number of bytes needed to encode the length
let lengthBytesCount = Int((log2(Double(length)) / 8) + 1)
// First byte encodes the number of remaining bytes in this field
let firstLengthFieldByte = UInt8(128 + lengthBytesCount)
var lengthField: [UInt8] = []
for _ in 0..<lengthBytesCount {
// Take the last 8 bits of length
let lengthByte = UInt8(length & 0xff)
// Insert them at the beginning of the array
lengthField.insert(lengthByte, at: 0)
// Delete the last 8 bits of length
length = length >> 8
}
// Insert firstLengthFieldByte at the beginning of the array
lengthField.insert(firstLengthFieldByte, at: 0)
return lengthField
}
}
您可以在函数
asBase64()extension SecKey {
func asBase64() throws -> String {
var dataPtr: CFTypeRef?
let query: [String:Any] = [
kSecClass as String: kSecClassKey,
kSecAttrApplicationTag as String: "...", // Same unique tag here
kSecAttrKeyType as String: kSecAttrKeyTypeRSA,
kSecReturnData as String: kCFBooleanTrue
]
let result = SecItemCopyMatching(query as CFDictionary, &dataPtr)
switch (result, dataPtr) {
case (errSecSuccess, .some(let data)):
// convert to X509 encoded key
let convertedData = RSAKeyEncoding().convertToX509EncodedKey(data)
// convert to Base64 string
let base64PublicKey = convertedData.base64EncodedString(options: [])
return base64PublicKey
default:
throw CryptoError.keyConversionError
}
}
}
使用上面的类一段时间后,我们偶然发现了另一个问题。有时,从钥匙串中获取的公钥似乎无效,因为由于某种原因它的大小已增大。此行为与问题中描述的结果相匹配(尽管在我们的示例中,Base64 编码密钥的大小已增长到 392 个字符,而不是 360 个字符)。不幸的是,我们没有找到这种奇怪行为的确切原因,但我们找到了两种解决方案。第一个解决方案是在定义查询时指定
kSecAttrKeySizeInBitskSecAttrEffectiveKeySizelet keySize = ... // Key size specified when storing the key, for example: 2048
let query: [String: Any] = [
kSecAttrKeySizeInBits as String: keySize,
kSecAttrEffectiveKeySize as String: keySize,
... // More attributes
]
var dataPtr: CFTypeRef?
let result = SecItemCopyMatching(query as CFDictionary, &dataPtr)
第二种解决方案是在添加具有相同标签的新钥匙之前始终从钥匙串(如果有)中删除旧钥匙。
我在 GitHub 上发布了这个项目,可以用作上述类的替代品。
RFC 5280(X.509 v3)
RFC 8017(PKCS #1 v2.2)
我在here找到的一些代码在创建
lengthField(...)Java 需要以 DER 格式编码的公钥。不幸的是iOS不支持这种标准格式,需要额外的转换(不知道最新版本的swift是否会改进)
请参阅我的答案此处您可以使用CryptoExportImportManager
转换密钥func exportPublicKeyToDER(keyId:String) -> NSData?{
let publicKey = loadKeyStringFromKeyChainAsNSData(PUBLIC_KEY + keyId)
let keyType = kSecAttrKeyTypeRSA
let keySize = 2048
let exportImportManager = CryptoExportImportManager()
if let exportableDERKey = exportImportManager.exportPublicKeyToDER(publicKey, keyType: keyType as String, keySize: keySize) {
return exportableDERKey
} else {
return nil
}
}
如果您使用 2048 位 RSA 密钥,则导出 X509 PEM 公钥就像将字符串
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8ANSString* alias = @"MyKeyAlias";
NSData* tag = [alias dataUsingEncoding:NSUTF8StringEncoding];
// delete any existing key pair with the same tag name
NSDictionary *deleteQuery = @{
(id)kSecClass: (id)kSecClassKey,
(id)kSecAttrApplicationTag: tag,
(id)kSecAttrKeyType: (id)kSecAttrKeyTypeRSA
};
SecItemDelete((__bridge CFDictionaryRef)deleteQuery);
// create a new key pair
NSDictionary* attributes = @{
(id)kSecAttrKeyType: (id)kSecAttrKeyTypeRSA,
(id)kSecAttrKeySizeInBits: @2048,
(id)kSecPrivateKeyAttrs: @{(id)kSecAttrIsPermanent: @YES, (id)kSecAttrApplicationTag: tag}
};
CFErrorRef error = NULL;
SecKeyRef privateKey = SecKeyCreateRandomKey((__bridge CFDictionaryRef)attributes, &error);
if (!privateKey) {
NSError *err = CFBridgingRelease(error);
NSString *message = [NSString stringWithFormat:@"Cannot generate key pair: %@", [err localizedDescription]];
NSLog(message);
} else {
SecKeyRef publicKey = SecKeyCopyPublicKey(privateKey);
if (!publicKey)
NSLog(@"Cannot export public key");
else {
NSData* keyData = (NSData*)CFBridgingRelease(SecKeyCopyExternalRepresentation(publicKey, &error));
if (!keyData)
NSLog(@"Failed to export public key");
else {
NSLog(@"-----BEGIN RSA PUBLIC KEY-----\n%@\n-----END RSA PUBLIC KEY-----\n", [keyData base64EncodedStringWithOptions:0]];
NSString *pem_x509 = [NSString stringWithFormat:@"MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8A%@", [keyData base64EncodedStringWithOptions:0]];
NSLog(@"-----BEGIN PUBLIC KEY-----\n%@\n-----END PUBLIC KEY-----\n", messageAsString:pem_x509];
}
}
CFRelease(privateKey);
}